The following table highlights the potential competency standards expected of students studying all taught programmes in the Faculty of Engineering.

These competence standards highlight the core skills students should be able to demonstrate by the end of their programme of study in the Civil and Environmental Engineering Department. In addition to these competence standards all students will be expected to meet the basic academic competence standards contained within the admissions policy for their programme of study.

These competence standards apply to the following degree programmes:

  • MSc Advanced Materials for Sustainable Infrastructure (H2G1)
  • MSc in Concrete Structures (H2A2)
  • MSc in Earthquake Engineering (H2A3
  • MSc in General Structural Engineering (H2A1)
  • MSc in Structural Steel Design (H2U5)
  • MSc in Environmental Engineering (H2UM)
  • MSc in Hydrology and Water Resources Management (H2UP)
  • MSc in Engineering Fluid Mechanics for Offshore, Coastal and Built Environments (H141)
  • MSc in Geotechnical and Earthquake Engineering (H2U4)
  • MSc in Geotechnical and Geoenvironmental Engineering (H2UN)
  • MSc in Geotechnical and Geological Engineering (H2EG)
  • MSc in Geotechnical Engineering (H2U3)
  • MSc in Transport (H2UR)

Students seeking admission to Faculty of Engineering degrees are also advised to consult the Engineering Council’s UK Standard for Professional Engineering Competence (UK-SPEC) which identifies key competences for the various levels of the Council’s registrants: http://www.engc.org.uk/engcdocuments/internet/Website/UKSPEC%20third%20edition%20(1).pdf. This document provides insight into the expectations of the Engineering Council for practising professionals, post-graduation

https://www.engc.org.uk/professional-registration/the-professional-titles/chartered-engineer 

It should be noted that the Faculty of Engineering believe in providing the widest practicable access to all degree programmes and appreciate that it is not possible to anticipate all circumstances. If it is possible to mitigate the impact of a disability by making a reasonable adjustment to procedures, e.g. by the use of an amanuensis or by the application of a specific technology, then every effort will be made to implement this with due consideration to ensuring fairness to all students and ensuring that all health and safety concerns are met. Therefore, the inability to meet one of the below competency standards due to disability does not necessarily preclude entry to a given degree programme but rather constitutes the starting point for a dialogue between the potential applicant, the College’s disability officer and the Department.

Subject specific knowledge and understanding

  • Ability to perceive, comprehend, synthesise, retain and apply information presented orally and in writing from a range of contexts including large-group, small-group and individual teaching, as well as eLearning, seminars and practical work.
  • Ability to undertake guided independent learning.
  • Ability to use acquired theoretical and practical knowledge to solve unseen engineering problems.
  • Ability to follow general laboratory, workshop and/or fieldwork safety guidance and precautions.
  • Acceptance of the general principles and practices of engineering professional codes of conduct.
  • Ability to understand the wider context of the engineering discipline, its practical applications, societal impact and limitations. 
  • Ability to cope with full-time study in a city environment. 
  • Excellent arithmetic ability. 
  • Ability to prepare, process, and interpret data and/or observations using appropriate techniques.. 

Intellectual skills

  • Ability to form logical, reasonable conclusions and make sound recommendations based on available data and/or observations.
  • Ability to obtain necessary data from scientific and technical documents, reports, and other reference materials. 
  • Ability to undertake work with a high level of initiative and commitment to the task in hand.

Practical skills

  • Physical and manual dexterity to precisely perform precise practical procedures. 
  • Ability to observe, undertake the measurement of, accurately record and manipulate data and/or observations in a laboratory, workshop and/or fieldwork environment using appropriate equipment (following appropriate training).
  • Ability to use appropriate equipment competently and safely (following appropriate training). 
  • Ability to use chemicals and other consumables competently and safely (following appropriate training).
  • Ability to produce sketches to communicate ideas and concepts. 
  • Ability to prepare technical drawings by hand (following appropriate training).
  • Ability to use computer systems to access learning resources, receive communications regarding the degree programme, undertake assessments and submit assignments.
  • Ability to use appropriate engineering software packages as an aid to research, analysis, problem solving and presentation.
  • Ability to write code to produce computer programs to aid in solving engineering problems (following appropriate training).
  • Ability to use symbolic and numerical mathematical software as part of practical computation (following appropriate training). 

Transferable skills

  • Ability to communicate, verbally and in writing, clearly and effectively.
  • Ability to present ideas, key facts, problem solutions and results effectively, both orally and in writing, in a variety of settings including group/team work.
  • Ability to work as part of a group/team in a range of roles, for the purposes of research, collective problem solving, development of ideas, production of objects and/or communication of results/findings. Ability to recognise and respect the contributions of other team members to promote successful team work. 
  • Ability to write group/team or individual written technical reports to a professional standard.
  • Ability to respond to written material critically, effectively and efficiently. 
  • Ability to present written technical reports to others and to make oral presentations that are reasoned, logical and time-limited, to a variety of audiences.

 

Our community in numbers*

Our academics

  • 55 full-time academic staff
  • 42 part-time, honorary and visiting
  • 90+ research staff
  • 40+ Professional Services and Technical staff 

Our student population

  • 226 PhD students
    69% male; 31% female
    42 nationalities
  • 292 MSc students
    58% male; 42% female
    42 nationalities
  • 456 Undergraduates 
    42 nationalities

* all numbers are approximate

Measures of success

Research Assessment Exercise
  • REF 2021. 75% of research assessed to be 4* (highest rating), 25% assessed to be 3*.
QS World Universities rankings
  • Subject Ranking. Civil Engineering = 6th (2021); 6th (2020); 6th (2019); 3rd (2018)
The Times Higher Education world ranking
  • Subject Ranking. Civil Engineering = 4th (2021); 11th (2020); 12th (2019)
National Student Survey
  • Overall Satisfaction, 92% (2022), 90% (2021); 78% (2020); 88% (2019)